This paper presents an approach to differentially constrained robot motion planning and efficient re-planning. Satisfaction of differential constraints is guaranteed by the search space which consists of motions that satisfy the constraints by construction. Any systematic replanning algorithm, e.g. D*, can be utilized to search the state lattice to find a motion plan that satisfies the differential constraints, and to repair it efficiently in the event of a change in the environment. Further efficiency is obtained by varying the fidelity of representation of the planning problem. High fidelity is utilized where it matters most, while it is lowered in the areas that do not affect the quality of the plan significantly. The paper presents a me...
Abstract — We consider motion planning problems for a vehicle with kinodynamic constraints, where th...
Autonomous mobile robots must be able to plan quickly and stay reactive to the world around them. Cu...
Research in motion planning has been striving to develop faster and faster planning algorithms in or...
Motion planning is a fundamental problem in robotics. When the differential constraints of a real ro...
Motion planning is a fundamental algorithmic problem that attracts attention because of its importan...
Sampling-based search has been shown effective in motion planning, a hard continuous state-space pro...
Abstract—Autonomous robots require robust and fast motion planning algorithms to operate in complex ...
In this chapter, we present one of the most crucial branches in motion planning: search-based planni...
Robots are being employed not only for assembly tasks, but also in domains like healthcare, mining, ...
191 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.Since differential constraint...
Autonomous robots will soon play a significant role in various domains, such as search-and-rescue, a...
We propose a new approach to robot path planning that consists of building and searching a graph con...
To compute a motion trajectory that avoids collisions, reaches a goalregion, and satisfies different...
Robotic motion planning requires configuration space exploration. In high-dimensional configuration ...
Robust robot motion planning in dynamic environments requires that actions be selected under real-ti...
Abstract — We consider motion planning problems for a vehicle with kinodynamic constraints, where th...
Autonomous mobile robots must be able to plan quickly and stay reactive to the world around them. Cu...
Research in motion planning has been striving to develop faster and faster planning algorithms in or...
Motion planning is a fundamental problem in robotics. When the differential constraints of a real ro...
Motion planning is a fundamental algorithmic problem that attracts attention because of its importan...
Sampling-based search has been shown effective in motion planning, a hard continuous state-space pro...
Abstract—Autonomous robots require robust and fast motion planning algorithms to operate in complex ...
In this chapter, we present one of the most crucial branches in motion planning: search-based planni...
Robots are being employed not only for assembly tasks, but also in domains like healthcare, mining, ...
191 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.Since differential constraint...
Autonomous robots will soon play a significant role in various domains, such as search-and-rescue, a...
We propose a new approach to robot path planning that consists of building and searching a graph con...
To compute a motion trajectory that avoids collisions, reaches a goalregion, and satisfies different...
Robotic motion planning requires configuration space exploration. In high-dimensional configuration ...
Robust robot motion planning in dynamic environments requires that actions be selected under real-ti...
Abstract — We consider motion planning problems for a vehicle with kinodynamic constraints, where th...
Autonomous mobile robots must be able to plan quickly and stay reactive to the world around them. Cu...
Research in motion planning has been striving to develop faster and faster planning algorithms in or...